The invention is a low-cost, compact radar for adaptively forming beams and independently steering the beams to improve the noise and sensitivity of the radar. The radar includes a printed circuit board, a low-cost multi-layer organic substrate, and a three dimensional (3D) radio frequency (RF) front end that is flood mounted on the substrate.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An automotive radar comprising: a printed circuit board having a digital signal processor mounted thereon; and a multi-layer substrate mounted on the printed circuit board, the multi-layer substrate having a plurality of antennas and a transmit/receive module directly connected to the plurality of antennas, wherein the transmit/receive module receives signals from the digital signal processor and uses the signals to form a plurality of beams that are transmitted using the plurality of antennas.
2. The automotive radar of claim 1 wherein the multi-layer substrate is selected from a group consisting of a liquid crystal polymer, a low temperature cofired ceramic, a Parylene-N dielectric, a PTFE ceramic, and a PTFE glass fiber material.
3. The automotive radar of claim 1 wherein the plurality of antennas and the transmit/receive module are part of the multi-layer substrate.
4. The automotive radar of claim 1 wherein at least one of the plurality of antennas is a waveguide horn made out of a metallized plastic.
5. The automotive radar of claim 1 wherein at least one of the plurality of antennas is a dual polarization antenna.
6. The automotive radar of claim 1 wherein the plurality of antennas are a planar microstrip antenna array fed through a microstrip distribution network.
7. The automotive radar of claim 1 further comprising a thermal via attached to the transmit/receive module for removing heat from the transmit/receive module.
8. The automotive radar of claim 1 further comprising a micro-machined plastic mounted over the transmit/receive module.
9. The automotive radar of claim 1 wherein the transmit/receive module is a transmitter and a receiver.
10. The automotive radar of claim 1 wherein the transmit/receive module includes a plurality of transmit/receive chips where each chip is connected to at least one of the plurality of antennas.
11. The automotive radar of claim 1 further comprising a variable gain amplifier to modify beams from the plurality of antennas.
12. The automotive radar of claim 1 further comprising a phase shifter to scan an antenna beam by adding a progressive phase delay.
13. The automotive radar of claim 1 further comprising an analog-to-digital converter to digitize the signals and to create multiple independent beams that can be steered to track multiple targets.
14. The automotive radar of claim 1 wherein the transmit/receive module generates and receives at least two orthogonal polarizations.
15. The automotive radar of claim 14 further comprising a voltage controlled oscillator integrated on the SiGe BiCMOS chip and ground vias and split grounding planes to isolate noise created by the voltage controlled oscillator.
16. The automotive radar of claim 1 wherein the transmit/receive module is selected from a group consisting of a SiGe BiCMOS chip and an all silicon CMOS chip.
17. The automotive radar of claim 1 further comprising a voltage controlled oscillator chip encapsulated into a metallized housing made out of an organic substrate to shield noise.
18. The automotive radar of claim 1 further comprising a corrective lens or a metamaterials lens positioned on the plurality of antennas to reduce side lobe levels.
19. An automotive radar comprising: a printed circuit board having an analog-to-digital converter; and a multi-layer substrate mounted on the printed circuit board, the multi-layer substrate having microstrip patch antennas that receive and transmit beams, a transmit/receive chip connected to the microstrip patch antennas and the analog-to-digital converter, and a phase shifter connected to the analog-to-digital converter to add phase delay to the beams.
20. An automotive radar comprising: a printed circuit board; a multi-layer substrate mounted on the printed circuit board, the multi-layer substrate having a plurality of antennas and a SiGe BiCMOS chip directly connected to the plurality of antennas, wherein the SiGe BiCMOS chip is configured to achieve adaptive beam control and beam steering of the plurality of antennas; a micro-machined plastic mounted over the transmit/receive module; and a voltage controlled oscillator integrated on the SiGe BiCMOS chip and ground vias and split grounding planes to isolate noise created by the voltage controlled oscillator.
21. The automotive radar of claim 20 wherein the micro-machined plastic is a metallized plastic for creating a plurality of passive components, and wherein the plurality of passive components is selected from a group consisting of a waveguide distribution network, a filter, a diplexer, a resonator, a coupler, and combinations thereof.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
April 4, 2008
June 8, 2010
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